yay/keys_test.go
2018-03-19 20:00:13 +00:00

268 lines
10 KiB
Go

package main
import (
"fmt"
"io/ioutil"
"os"
"testing"
rpc "github.com/mikkeloscar/aur"
gopkg "github.com/mikkeloscar/gopkgbuild"
)
func newPkg(basename string) *rpc.Pkg {
return &rpc.Pkg{Name: basename, PackageBase: basename}
}
func newSplitPkg(basename, name string) *rpc.Pkg {
return &rpc.Pkg{Name: name, PackageBase: basename}
}
func TestFormatKeysToImport(t *testing.T) {
casetests := []struct {
keySet pgpKeySet
bases map[string][]*rpc.Pkg
expected string
alternate string
wantError bool
}{
// Single key, required by single package.
{
keySet: pgpKeySet{"KEY-1": []*rpc.Pkg{newPkg("PKG-foo")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tKEY-1, required by: PKG-foo\n%s Import?", arrow),
wantError: false,
},
// Single key, required by two packages.
{
keySet: pgpKeySet{"KEY-1": []*rpc.Pkg{newPkg("PKG-foo"), newPkg("PKG-bar")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tKEY-1, required by: PKG-foo PKG-bar\n%s Import?", arrow),
wantError: false,
},
// Two keys, each required by a single package. Since iterating the map
// does not force any particular order, we cannot really predict the
// order in which the elements will appear. As we have only two cases,
// let's add the second possibility to the alternate variable, to check
// if there are any errors.
{
keySet: pgpKeySet{"KEY-1": []*rpc.Pkg{newPkg("PKG-foo")}, "KEY-2": []*rpc.Pkg{newPkg("PKG-bar")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tKEY-1, required by: PKG-foo\n\tKEY-2, required by: PKG-bar\n%s Import?", arrow),
alternate: fmt.Sprintf("GPG keys need importing:\n\tKEY-2, required by: PKG-bar\n\tKEY-1, required by: PKG-foo\n%s Import?", arrow),
wantError: false,
},
// Two keys required by single package.
{
keySet: pgpKeySet{"KEY-1": []*rpc.Pkg{newPkg("PKG-foo")}, "KEY-2": []*rpc.Pkg{newPkg("PKG-foo")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tKEY-1, required by: PKG-foo\n\tKEY-2, required by: PKG-foo\n%s Import?", arrow),
alternate: fmt.Sprintf("GPG keys need importing:\n\tKEY-2, required by: PKG-foo\n\tKEY-1, required by: PKG-foo\n%s Import?", arrow),
wantError: false,
},
// Two keys, one of them required by two packages.
{
keySet: pgpKeySet{"KEY-1": []*rpc.Pkg{newPkg("PKG-foo"), newPkg("PKG-bar")}, "KEY-2": []*rpc.Pkg{newPkg("PKG-bar")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tKEY-1, required by: PKG-foo PKG-bar\n\tKEY-2, required by: PKG-bar\n%s Import?", arrow),
alternate: fmt.Sprintf("GPG keys need importing:\n\tKEY-2, required by: PKG-bar\n\tKEY-1, required by: PKG-foo PKG-bar\n%s Import?", arrow),
wantError: false,
},
// Two keys, split package (linux-ck/linux-ck-headers).
{
keySet: pgpKeySet{"ABAF11C65A2970B130ABE3C479BE3E4300411886": []*rpc.Pkg{newPkg("linux-ck")}, "647F28654894E3BD457199BE38DBBDC86092693E": []*rpc.Pkg{newPkg("linux-ck")}},
bases: map[string][]*rpc.Pkg{"linux-ck": {newSplitPkg("linux-ck", "linux-ck-headers"), newPkg("linux-ck")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tABAF11C65A2970B130ABE3C479BE3E4300411886, required by: linux-ck (linux-ck-headers linux-ck)\n\t647F28654894E3BD457199BE38DBBDC86092693E, required by: linux-ck (linux-ck-headers linux-ck)\n%s Import?", arrow),
alternate: fmt.Sprintf("GPG keys need importing:\n\t647F28654894E3BD457199BE38DBBDC86092693E, required by: linux-ck (linux-ck-headers linux-ck)\n\tABAF11C65A2970B130ABE3C479BE3E4300411886, required by: linux-ck (linux-ck-headers linux-ck)\n%s Import?", arrow),
wantError: false,
},
// One key, three split packages.
{
keySet: pgpKeySet{"KEY-1": []*rpc.Pkg{newPkg("PKG-foo")}},
bases: map[string][]*rpc.Pkg{"PKG-foo": {newPkg("PKG-foo"), newSplitPkg("PKG-foo", "PKG-foo-1"), newSplitPkg("PKG-foo", "PKG-foo-2")}},
expected: fmt.Sprintf("GPG keys need importing:\n\tKEY-1, required by: PKG-foo (PKG-foo PKG-foo-1 PKG-foo-2)\n%s Import?", arrow),
wantError: false,
},
// No keys, should fail.
{
keySet: pgpKeySet{},
expected: "",
wantError: true,
},
}
for _, tt := range casetests {
question, err := formatKeysToImport(tt.keySet, tt.bases)
if !tt.wantError {
if err != nil {
t.Fatalf("Got error %q, want no error", err)
}
if question != tt.expected && question != tt.alternate {
t.Fatalf("Got %q\n, expected: %q", question, tt.expected)
}
continue
}
// Here, we want to see the error.
if err == nil {
t.Fatalf("Got no error; want error")
}
}
}
func TestImportKeys(t *testing.T) {
keyringDir, err := ioutil.TempDir("/tmp", "yay-test-keyring")
if err != nil {
t.Fatalf("Unable to init test keyring %q: %v\n", keyringDir, err)
}
// Removing the leftovers.
defer os.RemoveAll(keyringDir)
config.GpgBin = "gpg"
config.GpgFlags = fmt.Sprintf("--homedir %s", keyringDir)
casetests := []struct {
keys []string
wantError bool
}{
// Single key, should succeed.
// C52048C0C0748FEE227D47A2702353E0F7E48EDB: Thomas Dickey.
{
keys: []string{"C52048C0C0748FEE227D47A2702353E0F7E48EDB"},
wantError: false,
},
// Two keys, should succeed as well.
// 11E521D646982372EB577A1F8F0871F202119294: Tom Stellard.
// B6C8F98282B944E3B0D5C2530FC3042E345AD05D: Hans Wennborg.
{
keys: []string{"11E521D646982372EB577A1F8F0871F202119294",
"B6C8F98282B944E3B0D5C2530FC3042E345AD05D"},
wantError: false,
},
// Single invalid key, should fail.
{
keys: []string{"THIS-SHOULD-FAIL"},
wantError: true,
},
// Two invalid keys, should fail.
{
keys: []string{"THIS-SHOULD-FAIL", "THIS-ONE-SHOULD-FAIL-TOO"},
wantError: true,
},
// Invalid + valid key. Should fail as well.
// 647F28654894E3BD457199BE38DBBDC86092693E: Greg Kroah-Hartman.
{
keys: []string{"THIS-SHOULD-FAIL",
"647F28654894E3BD457199BE38DBBDC86092693E"},
wantError: true,
},
}
for _, tt := range casetests {
err := importKeys(tt.keys)
if !tt.wantError {
if err != nil {
t.Fatalf("Got error %q, want no error", err)
}
continue
}
// Here, we want to see the error.
if err == nil {
t.Fatalf("Got no error; want error")
}
}
}
func TestCheckPgpKeys(t *testing.T) {
keyringDir, err := ioutil.TempDir("/tmp", "yay-test-keyring")
if err != nil {
t.Fatalf("Unable to init test keyring: %v\n", err)
}
defer os.RemoveAll(keyringDir)
buildDir, err := ioutil.TempDir("/tmp", "yay-test-build-dir")
if err != nil {
t.Fatalf("Unable to init temp build dir: %v\n", err)
}
defer os.RemoveAll(buildDir)
config.BuildDir = buildDir
config.GpgBin = "gpg"
config.GpgFlags = fmt.Sprintf("--homedir %s", keyringDir)
casetests := []struct {
pkgs []*rpc.Pkg
srcinfos map[string]*gopkg.PKGBUILD
bases map[string][]*rpc.Pkg
wantError bool
}{
// cower: single package, one valid key not yet in the keyring.
// 487EACC08557AD082088DABA1EB2638FF56C0C53: Dave Reisner.
{
pkgs: []*rpc.Pkg{newPkg("cower")},
srcinfos: map[string]*gopkg.PKGBUILD{"cower": &gopkg.PKGBUILD{Pkgbase: "cower", Validpgpkeys: []string{"487EACC08557AD082088DABA1EB2638FF56C0C53"}}},
bases: map[string][]*rpc.Pkg{"cower": {newPkg("cower")}},
wantError: false,
},
// libc++: single package, two valid keys not yet in the keyring.
// 11E521D646982372EB577A1F8F0871F202119294: Tom Stellard.
// B6C8F98282B944E3B0D5C2530FC3042E345AD05D: Hans Wennborg.
{
pkgs: []*rpc.Pkg{newPkg("libc++")},
srcinfos: map[string]*gopkg.PKGBUILD{"libc++": &gopkg.PKGBUILD{Pkgbase: "libc++", Validpgpkeys: []string{"11E521D646982372EB577A1F8F0871F202119294", "B6C8F98282B944E3B0D5C2530FC3042E345AD05D"}}},
bases: map[string][]*rpc.Pkg{"libc++": {newPkg("libc++")}},
wantError: false,
},
// Two dummy packages requiring the same key.
// ABAF11C65A2970B130ABE3C479BE3E4300411886: Linus Torvalds.
{
pkgs: []*rpc.Pkg{newPkg("dummy-1"), newPkg("dummy-2")},
srcinfos: map[string]*gopkg.PKGBUILD{"dummy-1": &gopkg.PKGBUILD{Pkgbase: "dummy-1", Validpgpkeys: []string{"ABAF11C65A2970B130ABE3C479BE3E4300411886"}}, "dummy-2": &gopkg.PKGBUILD{Pkgbase: "dummy-2", Validpgpkeys: []string{"ABAF11C65A2970B130ABE3C479BE3E4300411886"}}},
bases: map[string][]*rpc.Pkg{"dummy-1": {newPkg("dummy-1")}, "dummy-2": {newPkg("dummy-2")}},
wantError: false,
},
// dummy package: single package, two valid keys, one of them already
// in the keyring.
// 11E521D646982372EB577A1F8F0871F202119294: Tom Stellard.
// C52048C0C0748FEE227D47A2702353E0F7E48EDB: Thomas Dickey.
{
pkgs: []*rpc.Pkg{newPkg("dummy-3")},
srcinfos: map[string]*gopkg.PKGBUILD{"dummy-3": &gopkg.PKGBUILD{Pkgbase: "dummy-3", Validpgpkeys: []string{"11E521D646982372EB577A1F8F0871F202119294", "C52048C0C0748FEE227D47A2702353E0F7E48EDB"}}},
bases: map[string][]*rpc.Pkg{"dummy-3": {newPkg("dummy-3")}},
wantError: false,
},
// Two dummy packages with existing keys.
{
pkgs: []*rpc.Pkg{newPkg("dummy-4"), newPkg("dummy-5")},
srcinfos: map[string]*gopkg.PKGBUILD{"dummy-4": &gopkg.PKGBUILD{Pkgbase: "dummy-4", Validpgpkeys: []string{"11E521D646982372EB577A1F8F0871F202119294"}}, "dummy-5": &gopkg.PKGBUILD{Pkgbase: "dummy-5", Validpgpkeys: []string{"C52048C0C0748FEE227D47A2702353E0F7E48EDB"}}},
bases: map[string][]*rpc.Pkg{"dummy-4": {newPkg("dummy-4")}, "dummy-5": {newPkg("dummy-5")}},
wantError: false,
},
// Dummy package with invalid key, should fail.
{
pkgs: []*rpc.Pkg{newPkg("dummy-7")},
srcinfos: map[string]*gopkg.PKGBUILD{"dummy-7": &gopkg.PKGBUILD{Pkgbase: "dummy-7", Validpgpkeys: []string{"THIS-SHOULD-FAIL"}}},
bases: map[string][]*rpc.Pkg{"dummy-7": {newPkg("dummy-7")}},
wantError: true,
},
// Dummy package with both an invalid an another valid key, should fail.
// A314827C4E4250A204CE6E13284FC34C8E4B1A25: Thomas Bächler.
{
pkgs: []*rpc.Pkg{newPkg("dummy-8")},
srcinfos: map[string]*gopkg.PKGBUILD{"dummy-8": &gopkg.PKGBUILD{Pkgbase: "dummy-8", Validpgpkeys: []string{"A314827C4E4250A204CE6E13284FC34C8E4B1A25", "THIS-SHOULD-FAIL"}}},
bases: map[string][]*rpc.Pkg{"dummy-8": {newPkg("dummy-8")}},
wantError: true,
},
}
for _, tt := range casetests {
err := checkPgpKeys(tt.pkgs, tt.bases, tt.srcinfos)
if !tt.wantError {
if err != nil {
t.Fatalf("Got error %q, want no error", err)
}
continue
}
// Here, we want to see the error.
if err == nil {
t.Fatalf("Got no error; want error")
}
}
}